CN221024414U - Unloading ribbon structure for photovoltaic cable coiling machine - Google Patents

Abstract

The utility model relates to a blanking ribbon structure for a photovoltaic cable winding machine, which comprises a blanking clamping module and a ribbon module, wherein the blanking clamping mechanism comprises an X-axis screw rod moving module, a Z-axis screw rod moving module is arranged on the X-axis screw rod moving module, a clamping mechanism is arranged at the front end of the Z-axis screw rod moving module, the ribbon module comprises a rotary positioning mechanism, one side of the rotary positioning mechanism is provided with a ribbon bundling mechanism, the clamping mechanism comprises a servo rotating seat and a linkage plate, a plurality of first pneumatic clamping jaws are hung on the linkage plate, and the ribbon bundling mechanism comprises an electric ribbon gun and a cutting assembly. The beneficial effects of the utility model are as follows: adopt X axle lead screw to remove the module and Z axle lead screw to remove the module drive and press from both sides and get the mechanism and press from both sides and get the photovoltaic cable after the wire winding, ribbon bundling mechanism is through getting mechanism, rotary positioning mechanism matched with pressing from both sides, realizes that the photovoltaic cable ties up and the multiple ribbon mode of twisting, application range is wide, and the suitability is strong, saves equipment cost for the enterprise, improves production efficiency.

Description

Unloading ribbon structure for photovoltaic cable coiling machine

Technical Field

The utility model relates to the technical field of winding machines, in particular to a blanking ribbon structure for a photovoltaic cable winding machine.

Background

The photovoltaic cable is an energy source and information transmission cable applied to the photovoltaic technology, and the quality of the photovoltaic cable in the prior art is obviously improved along with the continuous development of the material technology in China;

The photovoltaic cable is required to be wound into a coil before leaving a factory and is fixed by the ribbon, so that the photovoltaic cable is convenient to store and transport, and ribbon binding of the photovoltaic cable is mainly carried out in two modes at present, one mode is that the ribbon at a plurality of fixed points of the coil is directly fixed, the state of the coil is still kept after the ribbon is bound, the wound coil is fixed by the ribbon after being twisted, the ribbon is strip-shaped after being bound, and different ribbon modes of direct binding or twisting can be selected according to production requirements;

the coil clamping mode of the existing ribbon machine is single, multiple binding modes cannot be met, and the clamping mechanism cannot be adjusted according to the size of the coil, so that the applicability is low.

Disclosure of utility model

The purpose of the utility model is that: the utility model provides a photovoltaic cable coiling machine is with unloading ribbon structure to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the present utility model provides the following technical solutions: the utility model provides a photovoltaic cable coiling machine is with unloading ribbon structure, gets module and ribbon module including unloading clamp, unloading clamp gets the module and removes the module including X axle lead screw, X axle lead screw removes and is equipped with Z axle lead screw on the module and removes the module, Z axle lead screw removes the module front end and is equipped with and presss from both sides and get the mechanism, the ribbon module includes rotary positioning mechanism, rotary positioning mechanism one side is equipped with ribbon binding mechanism, it includes servo roating seat to press from both sides and get the mechanism, servo roating seat lower extreme is equipped with the linkage board, hang on the linkage board and be provided with a plurality of first pneumatic clamping jaws, ribbon binding mechanism includes electronic ribbon rifle and cutting assembly.

Preferably, the clamping mechanism further comprises an installation backboard, and the clamping mechanism is in sliding connection with the Z-axis screw rod moving module through the installation backboard.

Preferably, the end of the linkage plate is provided with an adjusting groove, and the first pneumatic clamping jaw is fixed in the adjusting groove through a locking bolt.

Preferably, the number of the first pneumatic clamping jaws is at least three, and the first pneumatic clamping jaws are equidistantly arranged on the linkage plate.

Preferably, the rotary positioning mechanism comprises a bracket, two parallel rotary cylinders are arranged on the bracket, and a second pneumatic clamping jaw is arranged at the piston end of each rotary cylinder.

Preferably, a certain distance is arranged between the two rotary cylinders, and the two rotary cylinders are positioned at one side close to the strapping mechanism.

Preferably, the cutting assembly comprises a pressing cylinder, a pressing plate is arranged at the piston end of the pressing cylinder, and the pressing plate is located at the upper end of the cutting handle of the electric ribbon gun.

The beneficial effects of the utility model are as follows: a blanking ribbon structure for a photovoltaic cable winding machine adopts an X-axis screw rod moving module and a Z-axis screw rod moving module to drive a clamping mechanism to clamp a photovoltaic cable after winding, and the ribbon bundling mechanism is matched with the clamping mechanism and a rotary positioning mechanism to achieve various ribbon modes of bundling and twisting the photovoltaic cable, so that the application range is wide, the applicability is strong, the equipment cost is saved for enterprises, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a clamping mechanism according to the present utility model;

FIG. 3 is a schematic view of a rotary positioning mechanism according to the present utility model;

Fig. 4 is a schematic view of the strapping mechanism of the present utility model.

In the figure: the device comprises a 1-X axis screw rod moving module, a 2-Z axis screw rod moving module, a 3-clamping mechanism, a 31-servo rotating seat, a 32-linkage plate, a 321-adjusting groove, a 33-first pneumatic clamping jaw, a 34-mounting backboard, a 35-locking bolt, a 4-rotary positioning mechanism, a 41-bracket, a 42-rotary cylinder, a 43-second pneumatic clamping jaw, a 5-strapping mechanism, a 51-electric strapping gun, a 52-cutting assembly, a 521-pressing cylinder and a 522-pressing plate.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1-4, a blanking ribbon structure for a photovoltaic cable winding machine comprises a blanking clamping module and a ribbon module, wherein the blanking clamping module comprises an X-axis screw moving module 1, a Z-axis screw moving module 2 is arranged on the X-axis screw moving module 1, a clamping mechanism 3 is arranged at the front end of the Z-axis screw moving module 2, the clamping mechanism 3 moves to the upper part of the ribbon module through the X-axis screw moving module 1, a wound photovoltaic cable descends to the ribbon bundling mechanism 5 through the Z-axis screw moving module 2, the ribbon module comprises a rotary positioning mechanism 4, one side of the rotary positioning mechanism 4 is provided with the ribbon bundling mechanism 5, the clamping mechanism 3 comprises a servo rotating seat 31, a linkage plate 32 is arranged at the lower end of the servo rotating seat 31, a plurality of first pneumatic clamping jaws 33 clamp coils, the coils rotate through the servo rotating seat 31 for coil multipoint bundling, the ribbon bundling mechanism 5 comprises an electric ribbon gun 51 and a cutting assembly 52, and the electric ribbon gun 51 automatically cuts the ribbon through the cutting assembly 52.

The clamping mechanism 3 further comprises a mounting backboard 34, the clamping mechanism 3 is in sliding connection with the Z-axis screw rod moving module 2 through the mounting backboard 34, and the clamping mechanism 3 moves up and down through the Z-axis screw rod moving module 2

The end of the linkage plate 32 is provided with an adjusting groove 321, the first pneumatic clamping jaws 33 are fixed in the adjusting groove 321 through locking bolts 35, and the distance between the first pneumatic clamping jaws 33 can be adjusted according to the diameter of the wound photovoltaic cable.

The number of the first pneumatic clamping jaws 33 is at least three, the first pneumatic clamping jaws 33 are equidistantly arranged on the linkage plate 32, and the photovoltaic cable wound into the coil is clamped by the first pneumatic clamping jaws 33, so that the coil is prevented from loosening.

The rotary positioning mechanism 4 comprises a support 41, two parallel rotary air cylinders 42 are arranged on the support 41, a second pneumatic clamping jaw 43 is arranged at the piston end of each rotary air cylinder 42, a certain distance is reserved between the two rotary air cylinders 42, the two rotary air cylinders 42 are located on one side close to the bundling mechanism 5 for bundling the photovoltaic cables, the rotary positioning mechanism 4 is used for achieving operation requirements of bundling the photovoltaic cables, the cutting assembly 52 comprises a compression air cylinder 521, a pressing plate 522 is arranged at the piston end of the compression air cylinder 521, the pressing plate 522 is located at the upper end of a cutting handle of the electric bundling gun 51, and the rotary air cylinders 42 are used for driving the second pneumatic clamping jaw 43 to rotate so as to assist the clamping mechanism 3 to clamp the coils and match bundling operation for the bundling belts.

After the photovoltaic cable is wound into a coil, the coil is clamped and fixed through a plurality of first pneumatic clamping jaws 33 on the clamping mechanism 3, the coil is prevented from loosening, then the clamping mechanism 3 is driven by the X-axis screw moving module 1 and the Z-axis screw moving module 2 to move the wound photovoltaic cable to the position above a ribbon station, the photovoltaic cable descends to the height of the rotary positioning mechanism 4, the servo rotating seat 31 is started to rotate the plurality of first pneumatic clamping jaws 33 and is matched with a second pneumatic clamping jaw 43 on the rotary positioning mechanism 4, the photovoltaic cable is alternately clamped and rotated, the electric ribbon gun 51 is used for ribbon binding, two modes such as coil binding or twisting can be selected according to product requirements, the ribbon is automatically cut off through the cutting assembly 52 after binding, and after the ribbon is completed, the clamping mechanism 3 moves the photovoltaic cable to a blanking channel again through the X-axis screw moving module 1 and the Z-axis screw moving module 2 for blanking.

The above examples are provided to further illustrate the utility model and do not limit the utility model to these specific embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be construed as being within the protection scope of the present utility model.

Claims (7)

1. The utility model provides a photovoltaic cable coiling machine unloading ribbon structure which characterized in that: including unloading clamp and get module and ribbon module, unloading clamp is got the module and is included X axle lead screw and is removed module (1), X axle lead screw removes and is equipped with Z axle lead screw and remove module (2) on module (1), Z axle lead screw removes that module (2) front end is equipped with presss from both sides and gets mechanism (3), the ribbon module includes rotary positioning mechanism (4), rotary positioning mechanism (4) one side is equipped with ribbon binding mechanism (5), press from both sides and get mechanism (3) including servo roating seat (31), servo roating seat (31) lower extreme is equipped with linkage board (32), hang on linkage board (32) and be provided with a plurality of first pneumatic clamping jaw (33), ribbon binding mechanism (5) are including electric ribbon rifle (51) and cutting assembly (52).

2. The blanking ribbon structure for a photovoltaic cable winder of claim 1, wherein: the clamping mechanism (3) further comprises an installation back plate (34), and the clamping mechanism (3) is in sliding connection with the Z-axis screw rod moving module (2) through the installation back plate (34).

3. The blanking ribbon structure for a photovoltaic cable winder of claim 1, wherein: the tail end of the linkage plate (32) is provided with an adjusting groove (321), and the first pneumatic clamping jaw (33) is fixed in the adjusting groove (321) through a locking bolt (35).

4. The blanking ribbon structure for a photovoltaic cable winder of claim 1, wherein: the number of the first pneumatic clamping jaws (33) is at least three, and the first pneumatic clamping jaws (33) are equidistantly arranged on the linkage plate (32).

5. The blanking ribbon structure for a photovoltaic cable winder of claim 1, wherein: the rotary positioning mechanism (4) comprises a support (41), two parallel rotary air cylinders (42) are arranged on the support (41), and a second pneumatic clamping jaw (43) is arranged at the piston end of each rotary air cylinder (42).

6. The blanking ribbon structure for a photovoltaic cable winder of claim 5, wherein: a certain distance is arranged between the two rotary air cylinders (42), and the two rotary air cylinders (42) are positioned at one side close to the strapping mechanism (5).

7. The blanking ribbon structure for a photovoltaic cable winder of claim 1, wherein: the cutting assembly (52) comprises a pressing cylinder (521), a pressing plate (522) is arranged at the piston end of the pressing cylinder (521), and the pressing plate (522) is located at the upper end of the cutting handle of the electric ribbon gun (51).